CN1905985B - Lead-free solder alloy - Google Patents

Abstract

[problems] a mobile electronic device is very often dropped while in use or in transportation to cause the soldered portions of electronic parts to peel off due to an impact by the dropping. The inner coils or resistors or the like in an electronic device are subjected to a heat cycle that they generate heat to cause soldered portions to be heated to high temperature while in used and they are cooled while not in use. Conventional sn-ag based lead-free solder has not provided sufficient impact resistance or heat cycle resistance to fine portions such as bumps. This invention provides lead-free solder alloy that provides excellent impact resistance and heat cycle resistance to bumps. [means for solving problems] the lead-free solder alloy consists of less than 0.1-2.0 mass% of ag, 0.01-0.1 mass% of cu, 0.005-0.1 mass% of zn, and the remaining portion of sn, wherein ga, ge, p are added to the alloy, and ni, co are further added to the alloy.

Description

Pb-free solder alloy

Technical field

The present invention relates to Pb-free solder alloy, it is lead-free alloy, is particularly suitable for forming the small like this solder portion of solder bump.

Background technology

For BGA (Ball Grid Arrey), CSP multifunctional elements such as (Chip Size Package) (hereinafter referred to as BGA etc.) are installed on printed base plate, utilize solder bump to carry out.On BAG etc., on electrode, form solder bump in advance in other words, when the assembling of printed base plate, this solder bump is located at after the solder portion of printed base plate,, make the solder bump fusing with the such heater heating of reflow ovens.And allow the solder bump that is formed at BAG etc. to the electrode of BAG etc. and the carrying out solder between the two of printed base plate solder portion and make its energising.

In the electronic component of the wafer that has carried QFP, SOIC etc., use the electrode of superfine spun gold connecting wafer and the interelectrode this wire bond (wirebonding) of the workpiece that carries wafer in addition.It connects operation very at a high speed present wire bond technology, and the connection at a place is only with the time short like this below 0.1 second.Yet, even if how wire bond carries out the high speed operation, because also will carry out the connection of spun gold, so in the electronic component that is provided with electrode in a large number, wanting to connect whole electrodes just needs the time at the everywhere electrode.In addition, because spun gold is a noble metal, thus material self costliness not only, and owing to will be processed into the hairline of tens of μ m, this processing will spend suitable time, therefore expensive more.In addition, wire bond is arranged at the situation of the central portion of workpiece in a large number with respect to electrode, because spun gold contacts with each other, so can not connect.

Therefore in the recent period, adopted the connection of wafer and workpiece not use spun gold, and directly connected the mode of mutual electrode DCA (Driect Chip Attachment) each other.So-called this DCA mode is meant that preliminary election forms solder bump on the electrode of wafer, when wafer is assemblied in workpiece, solder bump is set on piece pole, makes this solder bump fusing, makes thus to obtain between the two to connect.The DCA mode is not because use spun gold, thus can make at an easy rate, and because operation once just can be carried out the connection of whole electrodes, so productivity ratio is also very excellent.Therefore, in the electrode that utilizes the DCA mode recently connects, adopt the connection that utilizes solder bump mostly.Utilize the connection of this solder bump,, also can make the electrode of workpiece and carrying object relative, because connect by solder bump therebetween, so can not cause as wire bond that lead contacts with each other even electrode is located at the central portion of workpiece in a large number.

As BGA etc. with on wafer, form the method for solder bump, generally use soldered ball and soldering paste.

So existing projection forms and use soldering alloy, is the soldering alloy that Pb-Sn is, Pb-Sn is that soldering alloy is used in soldered ball or the soldering paste of using as aforementioned BGA etc. and the solder bump of wafer mostly.This Pb-Sn is a soldering alloy, because the solderability excellence, so when carrying out the solder of workpiece and printed base plate, the solder of the reliability excellence of the bad generation of solder can be arranged seldom.

So, be that the electronic equipment of soldering alloy solder is aging and when having fault to produce by Pb-Sn, do not carry out that performance improves and repairing etc., processing nearly all goes out of use.Go out of use among the constituent material of the electronic equipment handled, the glass of the metal of framework, the plastics of shell, display etc. are through recycling, but because printed base plate can not re-use, so by landfill disposal.Mention reason and be because, printed base plate then has resin and Copper Foil, scolding tin is engaged by metallicity ground on Copper Foil in addition, and can not be with its each self-separation.If contacted with being penetrated into underground acid rain by the printed base plate of landfill disposal, then the Pb in the scolding tin is because of the acid rain stripping, and the acid rain that contains the Pb composition further is penetrated into the underground underground water of sneaking into.If people and domestic animal are drunk the underground water that contains this Pb composition year in year out, then have the Pb savings at endosome, cause that finally Pb poisons.Therefore carry out the use of restriction Pb at world wide, the what is called " Pb-free solder " that does not contain Pb is used.

So-called Pb-free solder is to be principal component with Sn, wherein suitably adds Ag, Bi, Cu, Sb, In, Ni, Zn etc. again.

Always as Pb-free solder, be to be the Pb-free solder of the polynary system of the bianry alloy such as Sn-Cu, Sn-Sb, Sb-Bi, Sn-Zn, Sn-Ag of principal component and the element that in this bianry alloy, adds other with Sn.The Pb-free solder of general Sn principal component, its solderability is poorer than Pb-Sn scolding tin in the past, also has, and particularly the Sn-Cu of binary and polynary system system and Sn-Sb system are poorer.In addition, Sn-Bi system, is then not only destroyed so be collided as if solder portion easily because scolding tin becomes fragile, and, if having a little P b to sneak into, then peel off (liftoff) and take place from the coating of lead.Also have Sn-Zn system because Zn is a base metal, can not print coating so aging the generation arranged when forming soldering paste.Exist after the solder and solder portion between cause the problem of galvano-cautery.As the Pb-free solder of Sn principal component, Sn-Ag system does not have lead welding with other binary systems and compares excellences such as solderability, fragility, resistance to ag(e)ing.

If electronic equipment stop its use and cut off energising, then the heat release from part disappears, and returns to room temperature in the shell.Whether each use of carrying out electronic equipment like this or not, and can cause to heat up repeatedly in the shell and lower the temperature such thermal cycle.This thermal cycle causes the thermal expansion contraction of scolding tin and electronic component and printed base plate.Because coefficient of thermal expansion is variant in printed base plate and the electronic component, so when exposing to the open air in thermal cycle, produce thermal stress in solder portion.For this reason, solder portion takes place tired, and final the generation damaged.Therefore, use the scolding tin on electronic equipment, must also will have heat-resisting cyclicity.Pb-free solder, the soldering alloy that is with Pb-Sn compares, and heat-resisting cyclicity is not inferior yet, and still as the soldering alloy of heat-resisting cyclicity excellence, it is soldering alloy (spy opens flat 5-050286 communique) that Sn-Ag-Cu is arranged.

So, in the so-called mobile electronic device of mobile phone, subnotebook PC, digital camera etc., require the solder portion of the electronic component of joint electronic equipment internal that excellent in impact resistance is arranged.Mobile electronic device stands a lot of collisions in other words, thus the collision and the electronic equipment of solder portion is peeled off, make as the function of electronic equipment to bring into play.For example mobile phone is placed into coat pocket, will landing from pocket when bending over, and the nearest mobile phone with mail function can fall in the operation of one hand.Laptop is put into this bag that frequently drops when bag moves in addition, and digital camera also can frequently in use drop.Therefore be used in the scolding tin of mobile electronic device, need have excellent in impact resistance.Pb-free solder alloy, the soldering alloy that is with Pb-Sn compares, and aspect the following drop impact weak tendency is being arranged.Also have as the anti-strong Pb-free solder alloy of drop impact down, it is characterized in that be made of following: the Cu of the Ag of 0.5～5 quality %, 0.01～0.1 quality %, the Pb of 0.001～0.05 quality %, surplus are Sn.

The invention of Sn-Ag-Cu-Zn series lead-free soldering tin alloy in addition has few (spy opens the 2003-326386 communique) and the electrode diffusion of generation of slag (dross), bridging when fluid solder (flowsoldering) to suppress high (spy opens the 2002-185130 communique) of effect.

Patent documentation 1: the spy opens flat 3-050286 communique

Patent documentation 3: the spy opens the 2003-326386 communique

Patent documentation 4: the spy opens the 2002-185130 communique

The Sn-Ag-Cu series lead-free soldering tin of heat-resisting cyclicity excellence, resistance to impact particularly be cannot say for sure strong fully in the resistance to impact of the little solder portion of solder area.In other words because nearest electronic equipment high performance miniization, thereby the electronic component that is assembled in is wherein also realized high mechanization with miniaturization, although number of electrodes such as BAG increase, whole size diminishes on the contrary.So the solder bump that forms on the electrode of the electronic component that diminishes also diminishes, but, if a little less than the scolding tin resistance to impact of little Pb-free solder solder portion, then electronic equipment is when standing the impact of dropping such, solder portion will peel off easily, makes as the function of electronic equipment to bring into play.

In electronic equipment, in power on circuitry,, heat up in the shell of electronic equipment during as if use in addition then from unit heat discharging.If continue this behaviour in service, then solder portion also will be exposed to for a long time and pine for, scolding tin and interface, junction surface, its metal structure metamorphosis and deterioration.Described in this case resistance to impact also reduces.Thereby the resistance to impact after heat ageing exposes to the open air is also very important.The Pb-free solder of patent documentation 2 is the strong soldering alloys of anti-drop impact, but, the Pb-free solder of looking for is that the resistance to impact after heat ageing exposes to the open air is stronger, even the electronic equipment that fine solder portion connects, dropping can be not damaged yet, total sufficient resistance to impact and sufficient heat-resisting cyclicity.

Summary of the invention

Present inventors, for small solder portion, to make Sn be the raising of shock-resistant and heat-resisting circulation of the Pb-free solder of principal component carry out repeatedly with keen determination research found that the following the present invention that finished, that is: by in the Pb-free solder alloy of Sn and Ag and Cu is formed, adding trace Zn, thereby obtain that sufficient resistance to impact is also arranged after heat ageing exposes to the open air, have heat-resisting circulative Pb-free solder alloy fully simultaneously.

The present invention is a kind of Pb-free solder alloy, it is characterized in that, it is made of following composition: 0.1 quality % is above but Zn, the surplus of Cu, 0.005～0.1 quality % that be lower than Ag, 0.01～0.2 quality % of 2.0 quality % is Sn.

In Pb-free solder of the present invention, Ag is effective to heat-resisting cyclicity, still, if its addition lacks than 0.1% quality %, then can't realize the effect that heat-resisting cyclicity improves, if more than 2.0 quality %, then resistance to impact reduces.

In Pb-free solder of the present invention, Cu can further make resistance to impact improve.If the amount of the Cu that adds is lacked than 0.01 quality %, then can't realize the effect that resistance to impact is improved, contain in large quantities as if howing than 0.2 quality %, then can make solder portion that hole (void) takes place in a large number.

The resistance to impact of the interpolation of Zn after for heat ageing is effective, if its addition lacks than 0.005 quality %, then can't realize the effect that resistance to impact is improved, add if surpass 0.1 quality %, the wetability of soldering alloy is significantly reduced, frequency takes place and increase the hole.

In Sn-Ag-Cu-Zn series lead-free soldering tin alloy of the present invention, the selection from Ga, Ge, P that can add 0.0005～0.1 quality % in addition is at least a.These elements are effective to the xanthochromia that prevents Pb-free solder.Carry out high temperature when placing test for the electronic component of the BGA that has used Pb-free solder etc., be identified this xanthochromia.This high temperature is placed test, according to the assembling manufacturer of electronic component manufacturer and electronic equipment and condition is different, but if placed 200 hours in 125 ℃ high-temperature atmosphere, just can significantly confirm.Place test by high temperature,, become reasons of error if solder bump surface flavescence when then by the image processing solder bump being detected, just can not detect exactly.Ga, Ge, P prevent effectively xanthochromia, in order to prevent xanthochromia, needs to add wherein at least a of 0.0005 quality %.If Ga, Ge, its interpolation of P are more than 0.1 quality %, and then solderability is poor.

Sn-Ag-Cu-Zn series lead-free soldering tin alloy of the present invention except add select at least a from Ga, Ge, P in the Ag-Cu-Zn series lead-free soldering tin, can also add Ni or the Co of 0.01～0.1 quality %.These elements are effective to the heat-resisting cyclicity of Pb-free solder.Solder portion is very small as BGA, does not use if carry out the use of electronic equipment repeatedly, thereby exposes to the open air year in year out under thermal cycle, has to destroy in solder portion and takes place.In the present invention, except in the Sn-Ag-Cu-Zn series lead-free soldering tin, adding from Ga, Ge, P, select at least a, if again trace add Ni or Co more than one, the effect that heat-resisting cyclicity is improved is then arranged.If Ni and Co if add manyly than 0.1 quality %, then make the scolding tin fusing point rise then effective to add up to more than the interpolation 0.01 quality %, produce infusible problem.

Also have, the present invention is with the purpose that rises to of the raising of the resistance to impact of small solder portion and heat-resisting circulation, as the purposes that is fit to this purpose is solder bump, even be used in general solder, for also bringing into play effect in resistance to impact and the raising of heat-resisting cyclicity.In the formation of solder bump, mostly as soldered ball and soldering paste and use.Promptly in BGA etc., torch head embark on the substrate of BGA etc., is formed solder bump by making this soldered ball fusing, on wafer, soldering paste is spread on the wafer, form solder bump by making this solder paste melts.

Pb-free solder alloy of the present invention, because resistance to impact after projection forms and heat-resisting cyclicity are than existing Pb-free solder alloy excellence, so, even in the use neutralization carrying of electronic equipment, fall accidentally, solder portion also is difficult to peel off, even or not through the long-time use that repeats electronic equipment in addition, solder portion is also rich under thermal cycle is difficult to peel off such reliability.Pb-free solder alloy of the present invention in addition after solder bump forms, does not have xanthochromia even carry out hot test yet, therefore error can not take place when the image detection of solder bump, can bring into play excellent effect aspect the detection property yet.

The specific embodiment

The soldering alloy of making Pb-free solder alloy of the present invention and comparative example by the cooperation of table 1 falls impulse withstand test and heat-resisting cyclic test, discoloration test together.In addition, make the soldering alloy of Pb-free solder alloy of the present invention and comparative example by the cooperation of table 2, to comparing of hole.

Embodiment 1

The embodiment of the surperficial Pb-free solder alloy of table 1 and comparative example.

[table 1]

The explanation of table 1

It is shock-resistant to fall: apply the impact that brings because of the whereabouts at solder bump between the CSP of solder and printed base plate, measure the whereabouts number of times that has the crack to take place up to solder portion.The normal temperature keeping of mensuration after with solder and apply 125 ℃ two kinds of heat treatment 100hr.

(whereabouts impulse withstand test method)

1. at size 10 * 10mm, on the CSP that electrode is 150, print soldering paste, load the soldered ball of diameter 0.3mm.

2. be mounted with the CSP of soldered ball with the reflow ovens heating, on electrode, form solder bump.

3. will be formed with the CSP of solder bump, be equipped on the central authorities of printed base plate of the glass epoxy resin (glass epoxy) of 30 * 120mm,, and CSP will be soldered on the printed base plate with the reflow ovens heating.

4. leave at interval with anchor clamps, have the two ends of the printed base plate of CSP to be fixed on the whereabouts anchor clamps of aluminum solder.

5. the anchor clamps that cause to fall and break fall from the height of 500mm, and printed base plate is applied impact.At this moment the printed base plate fixed by anchor clamps of two ends, its central portion vibration, the solder portion of printed base plate and CSP stands the impact from this vibration generation.Measure the whereabouts number of times that the crack generation is arranged up to the solder portion of CSP by this drop test.Being more than 100 times in the early stage, is to be judged as more than 40 well after the heat treatment.

Heat-resisting circulation: the printed base plate that has assembled electronic component is applied thermal cycle, measure the number of times that takes place up to the destruction that solder portion is arranged.

(heat-resisting cyclic test method)

1. at size 10 * 10mm, on the CSP that electrode is 150, print soldering paste, load the soldered ball of diameter 0.3mm.

2. be mounted with the CSP of soldered ball with the reflow ovens heating, on electrode, form solder bump.

3. will be formed with the CSP of solder bump, be equipped on the printed base plate of the glass epoxy resin (glass epoxy) of 120 * 140mm,, CSP will be soldered on the printed base plate with the reflow ovens heating.

4. solder is had the printed base plate of CSP to put into the thermal cycling test machine, respectively with expose to the open air-40 ℃ 10 minutes ,+125 ℃ of 10 minutes such conditions apply thermal cycle, measure to have up to solder portion and destroy the number of times that takes place.More than 1500 weeks is good.

Discoloration test (xanthochromia): with the xanthochromia on the scolding tin surface after the heating of visual observations high temperature.

(xanthochromia test method)

1. on CSP, load the soldered ball of 0.3mm.

2. the soldered ball that will be loaded into CSP forms solder bump with the reflow ovens fusing.

3. the CSP that will be formed with solder bump is placed in 150 ℃ the thermostat after 24 hours, with visual observations xanthochromia state.Do not have the nothing that is of most of xanthochromia, xanthochromia is significant for having.

[table 2]

The explanation of table 2

Solder bump to CSP is observed the hole with the X ray penetrating apparatus, calculates incidence.

(computational methods of the generation number in hole are as follows)

1. on CSP, load the soldered ball of 0.3mm.

2. the soldered ball that will be loaded into CSP forms solder bump with the reflow ovens fusing.

3. the CSP that will be formed with solder bump puts into the X ray penetrating apparatus, forms intensity, the contrast that can detect the hole in the projection.

4. statistics has the projection that the above hole of the about 30 μ m of diameter takes place.

5. the number of lugs that takes place with the hole draws the hole incidence divided by the number of lugs of observing.The hole incidence is being judged as well below 30%.

Pb-free solder alloy excellence of the present invention, its resistance to impact, heat-resisting cyclicity excellence after heat ageing exposes to the open air, the variable color of scolding tin and the generation in hole are few.

The industrial possibility of utilizing

Pb-free solder of the present invention except the mobile device of mobile phone, laptop, digital camera etc., can also be applied to printed base plate that remote controller, hand gear use etc., small-sized some electronic equipments that might drop.

Claims (3)

1. a solder bump forms and use Pb-free solder alloy, it is characterized in that it is made of following composition: more than the 0.1 quality % but Zn, the surplus of Cu, 0.0005～0.1 quality % that is lower than Ag, 0.01～0.2 quality % of 2.0 quality % is Sn.

2. solder bump according to claim 1 forms and uses Pb-free solder alloy, it is characterized in that, also add 0.0005～0.1 quality % from Ga, Ge, P, select one or more.

3. solder bump according to claim 1 and 2 forms and uses Pb-free solder alloy, it is characterized in that, also adds Ni or the Co of 0.01～0.1 quality %.